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 程式師世界 >> 編程語言 >> 更多編程語言 >> Delphi >> 用delphi讀取網卡物理號

用delphi讀取網卡物理號

編輯:Delphi

unit Main;
interface
uses
 SysUtils, WinTypes, WinProcs, Messages, Classes, Graphics, Controls,
 Forms, Dialogs, StdCtrls,
 Nb, ExtCtrls;
type
 TForm1 = class(TForm)
  Panel1: TPanel;
  Memo1: TMemo;
  Panel2: TPanel;
  Button1: TButton;
  procedure Button1Click(Sender: TObject);
  procedure FormCreate(Sender: TObject);
 private
  { Private declarations }
 public
  { Public declarations }
 end;
var
 Form1: TForm1;
implementation
{$R *.DFM}
{---------------------------------------------}
{ enumerate the lana's - works only on WIN32 }
{---------------------------------------------}
function NbLanaEnum: TLana_Enum;
var
 NCB: TNCB;
 L_Enum: TLana_Enum;
 RetCode: Word;
begin
{$IFDEF WIN32}
 FillChar(NCB, SizeOf(NCB), 0);
 FillChar(L_Enum, SizeOf(TLana_Enum), 0);
 NCB.Command := NCB_ENUM;
 NCB.Buf := @L_Enum;
 NCB.Length := Sizeof(L_Enum);
 RetCode := NetBiosCmd(NCB);
 if RetCode <> NRC_GOODRET then begin
  L_Enum.Length := 0;
  L_Enum.Lana[0] := Byte(RetCode);
 end;
{$ELSE}          { not supported for WIN16, fake LANA 0 }
 L_Enum.Length := 1;
 L_Enum.Lana[0] := 0;
{$ENDIF}
 Result := L_Enum;
end;
{----------------------------------------}
{ Reset the lana - don't for WIN16 !  }
{----------------------------------------}
function NbReset(l: Byte): Word;
var
 NCB: TNCB;
begin
{$IFNDEF WIN32}      { will reset all your connections for WIN1
6 }
 Result := NRC_GOODRET;  { so just fake a reset for Win16
 }
{$ELSE}
 FillChar(NCB, SizeOf(NCB), 0);
 NCB.Command := NCB_RESET;
 NCB.Lana_Num := l;
 Result := NetBiosCmd(NCB);
{$ENDIF}
end;
{----------------------------------------}
{ return the MAC address of an interface }
{ in the form of a string like :    }
{ 'xx:xx:xx:xx:xx:xx'          }
{ using the definitions in nb.pas    }
{----------------------------------------}
function NbGetMacAddr(LanaNum: Integer): String;
var
 NCB: TNCB;
 AdpStat: TAdpStat;
 RetCode: Word;
begin
 FillChar(NCB, SizeOf(NCB), 0);
 FillChar(AdpStat, SizeOf(AdpStat), 0);
 NCB.Command := NCB_ADPSTAT;
 NCB.Buf := @AdpStat;
 NCB.Length := Sizeof(AdpStat);
 FillChar(NCB.CallName, Sizeof(TNBName), $20);
 NCB.CallName[0] := Byte('*');
 NCB.Lana_Num := LanaNum;
 RetCode := NetBiosCmd(NCB);
 if RetCode = NRC_GOODRET then begin
  Result := Format('%2.2x:%2.2x:%2.2x:%2.2x:%2.2x:%2.2x',
         [AdpStat.ID[0],
         AdpStat.ID[1],
         AdpStat.ID[2],
         AdpStat.ID[3],
         AdpStat.ID[4],
         AdpStat.ID[5]
         ]);
 end else begin
  Result := '??:??:??:??:??:??';
 end;
end;
procedure TForm1.Button1Click(Sender: TObject);
begin
 Close;
end;
procedure TForm1.FormCreate(Sender: TObject);
var
 L_Enum : TLana_Enum;
 RetCode: Word;
 i: Integer;
begin
 L_Enum := NbLanaEnum;           { enumerate lanas for WI
N NT }
 if L_Enum.Length = 0 then begin
  Button1.Caption := Format('LanaEnum err=%2.2x', [L_Enum.Lana[0]]);
  exit;
 end;
 for i := 0 to (L_Enum.Length - 1)do begin { for every lana found
  }
  RetCode := NbReset(L_Enum.Lana[i]);   { Reset lana for WIN Nt
  }
  if RetCode <> NRC_GOODRET then begin
   Button1.Caption := Format('Reset Lana %d err=%2.2x',[i, RetCode
]);
   exit;
  end;
                      { Get MAC Address
  }
  Memo1.Lines.Add(Format('Lana %x = %s', [L_Enum.Lana[i], NbGetMacAd
dr(i)]));
 end;
 Button1.Caption := 'Stop';
end;
end.
——————————————————————————————————-
unit Nb;
{$F+}
{ nb.pas
 16/32 bit windows netbios access (follows IBM's Netbios 3.0 spec)
 (C) CEVI VZW - 29 april 1998  -- DH ([email protected]) --
 You can (ab)use this code as you like, but please do not remove the
credits.
 I used reference material from IBM, Microsoft, Syntax and Byte when
I wrote
 the 16-bit (DOS) c-version ages ago (in Borland Turbo C 2.0 on a 38
6SX PC)
 with a Syntax SMB server running on Interactive Unix.
 I now converted this to 16 and 32 bit Delphi code.
}
interface
uses SysUtils, Winprocs, Wintypes;
const
{ size of a netbios name }
 NBNAMESIZE  = 16;
{ max number of network adapters }
{ remeber it's BIG Blue, right ? }
 MAXLANAS   = 254;
{ NCB Command codes }
 NCB_ASYNC  = $80; { asynch command bit to be or-ed into command
}
 NCB_CALL   = $10; { open a session }
 NCB_LISTEN  = $11; { wait for a call }
 NCB_HANGUP  = $12; { end session }
 NCB_SEND   = $14; { send data }
 NCB_RECV   = $15; { receive data }
 NCB_RECVANY = $16; { receive data on any session }
 NCB_CHAINSEND = $17; { chain send data }
 NCB_DGSEND  = $20; { send a datagram }
 NCB_DGRECV  = $21; { receive datagram }
 NCB_DGSENDBC = $22; { send broadcast datagram }
 NCB_DGREVCBC = $23; { receive broadcast datagram }
 NCB_ADDNAME = $30; { add unique name to local table }
 NCB_DELNAME = $31; { delete name from local table }
 NCB_RESET  = $32; { reset adapter }
 NCB_ADPSTAT = $33; { adapter status }
 NCB_SSTAT  = $34; { session status }
 NCB_CANCEL  = $35; { cancel NCB request }
 NCB_ADDGRPNAME= $36; { add group name to local table }
 NCB_ENUM   = $37; { enum adapters }
 NCB_UNLINK  = $70; { unlink remote boot code }
 NCB_SENDNA  = $71; { send, don't wait for ACK }
 NCB_CHAINSENDNA=$72; { chain send, but don't wait for ACK }
 NCB_LANSTALERT= $73; { lan status alert }
 NCB_ACTION  = $77; { enable extensions }
 NCB_FINDNAME = $78; { search for name on the network }
 NCB_TRACE  = $79; { activate / stop tracing }
{ NCB return codes }
 NRC_GOODRET  = $00;  { good return
               also returned when ASYNCH request accept
ed }
 NRC_BUFLEN   = $01;  { illegal buffer length
 }
 NRC_ILLCMD   = $03;  { illegal command
 }
 NRC_CMDTMO   = $05;  { command timed out
 }
 NRC_INCOMP   = $06;  { message incomplete, issue another comman
d }
 NRC_BADDR   = $07;  { illegal buffer address
 }
 NRC_SNUMOUT  = $08;  { session number out of range
 }
 NRC_NORES   = $09;  { no resource available
 }
 NRC_SCLOSED  = $0a;  { session closed
 }
 NRC_CMDCAN   = $0b;  { command cancelled
 }
 NRC_DUPNAME  = $0d;  { duplicate name
 }
 NRC_NAMTFUL  = $0e;  { name table full
 }
 NRC_ACTSES   = $0f;  { no deletions, name has active sessions
 }
 NRC_LOCTFUL  = $11;  { local session table full
 }
 NRC_REMTFUL  = $12;  { remote session table full
 }
 NRC_ILLNN   = $13;  { illegal name number
 }
 NRC_NOCALL   = $14;  { no callname
 }
 NRC_NOWILD   = $15;  { cannot put * in NCB_NAMe
 }
 NRC_INUSE   = $16;  { name in use on remote adapter
 }
 NRC_NAMERR   = $17;  { name deleted
 }
 NRC_SABORT   = $18;  { session ended abnormally
 }
 NRC_NAMCONF  = $19;  { name conflict detected
 }
 NRC_IFBUSY   = $21;  { interface busy, IRET before retrying
 }
 NRC_TOOMANY  = $22;  { too many commands outstanding, retry lat
er }
 NRC_BRIDGE   = $23;  { ncb_lana_num field invalid
 }
 NRC_CANOCCR  = $24;  { command completed while cancel occurring
 }
 NRC_CANCEL   = $26;  { command not valid to cancel
 }
 NRC_DUPENV   = $30;  { name defined by anther local process
 }
 NRC_ENVNOTDEF = $34;  { environment undefined. RESET required
 }
 NRC_OSRESNOTAV = $35;  { required OS resources exhausted
 }
 NRC_MAXAPPS  = $36;  { max number of applications exceeded
 }
 NRC_NOSAPS   = $37;  { no saps available for netbios
 }
 NRC_NORESOURCES = $38;  { requested resources are not available
 }
 NRC_INVADDRESS = $39;  { invalid ncb address or length > segment
 }
 NRC_INVDDID  = $3B;  { invalid NCB DDId
 }
 NRC_LOCKFAIL  = $3C;  { lock of user area failed
 }
 NRC_OPENERR  = $3f;  { NETBIOS not loaded
 }
 NRC_SYSTEM   = $40;  { system error
 }
 NRC_PENDING  = $ff;  { asynchronous command is not yet finished
 }
{ Values for transport_id }
ALL_TRANSPORTS = 'M'#$00#$00#$00;
MS_NBF    = 'MNBF';
{ values for name_flags bits. }
NAME_FLAGS_MASK = $87;
GROUP_NAME   = $80;
UNIQUE_NAME  = $00;
REGISTERING  = $00;
REGISTERED   = $04;
DEREGISTERED  = $05;
DUPLICATE   = $06;
DUPLICATE_DEREG = $07;
{ Values for state }
 LISTEN_OUTSTANDING   = $01;
 CALL_PENDING      = $02;
 SESSION_ESTABLISHED  = $03;
 HANGUP_PENDING     = $04;
 HANGUP_COMPLETE    = $05;
 SESSION_ABORTED    = $06;
type
{ Netbios Name }
 TNBName = array[0..(NBNAMESIZE - 1)] of byte;
{ MAC address }
 TMacAddress = array[0..5] of byte;
 PNCB = ^TNCB;
{ Netbios Control Block }
{$IFDEF WIN32}
 TNCBPostProc = procedure(P: PNCB);
{$ENDIF}
 TNCB = packed record    { Netbios Control Block }
  Command: byte;   { command code           }
  RetCode: byte;   { return code            }
  LSN:   byte;   { local session number       }
  Num:   byte;   { name number            }
  Buf:   ^byte;  { data buffer            }
  Length: word;   { data length            }
  CallName: TNBName; { name to call           }
  Name:  TNBName; { our own name           }
  RTO:   byte;   { receive time-out         }
  STO:   byte;   { send time-out           }
 {$IFNDEF WIN32}
  Post_Offs:word;   { asynch notification routine offset }
  Post_Seg: word;   { asynch notification routine segment}
 {$ELSE}
  PostPrc: TNCBPostProc;{ asynch notification routine (nb30) }
 {$ENDIF}
  Lana_Num: byte;  { adapter number          }
  Cmd_Cplt: byte;  { command completion flag      }
 {$IFDEF WIN32}
  Reserved: array[0..9] of byte; { Reserverd for Bios use }
  Event:  THandle; { WIN32 event handle to be signalled }
            { for asynch cmd completion     }
 {$ELSE}
  Reserved: array[0..13] of byte; { Reserved }
 {$ENDIF}
 end;
{ Netbios Name Info record }
 PNameInfo = ^TNameInfo;
 TNameInfo = packed record { name info record }
  Name: TNBName;   { netbios name }
  NameNum:byte;     { name number }
  NameSt: byte;     { name status }
 end;
{ Netbios adapter status }
 PAdpStat = ^TAdpStat;
 TAdpStat = packed record  { adapter status record}
  ID:   TMacAddress; { adapter mac address     }
  VMajor: byte;     { software version major number }
  Resvd0: byte;
  AdpType: byte;     { adapter type         }
  VMinor: byte;     { software version minor number }
  RptTime: word;     { reporting time period    }
  RcvCRC: word;     { receive crc errors      }
  RcvOth: word;     { receive other errors     }
  TxmCol: word;     { transmit collisions     }
  TxmOth: word;     { transmit other errors    }
  TxmOK:  LongInt;   { successfull transmissions  }
  RcvOK:  LongInt;   { successfull receives     }
  TxmRetr: word;     { transmit retries       }
  NoRcvBuf: word;     { number of 'no receive buffer' }
  T1_tmo: word;     { t1 time-outs         }
  Ti_tmo: word;     { ti time_outs         }
  Resvd1: LongInt;
  Free_Ncbs:word;     { number of free ncb's     }
  Cfg_Ncbs: word;     { number of configured ncb's  }
  max_Ncbs: word;     { max ncb's used        }
  NoTxmBuf: word;     { number of 'no transmit buffer'}
  MaxDGSize:word;     { max. datagram size      }
  Pend_Ses: word;     { number of pending sessions  }
  Cfg_Ses: word;     { number of configured sessions }
  Max_Ses: word;     { max sessions used      }
  Max_SPSz: word;     { max. session packet size   }
  nNames: word;     { number of names in local table}
  Names:  array[0..15] of TnameInfo; { local name table }
 end;
{
 Structure returned to the NCB command NCBSSTAT is SESSION_HEADER fo
llowed
 by an array of SESSION_BUFFER structures. If the NCB_NAME starts wi
th an
 asterisk then an array of these structures is returned containing t
he
 status for all names.
}
{ session header }
 PSession_Header = ^TSession_Header;
 TSession_Header = packed record
  sess_name:      byte;
  num_sess:      byte;
  rcv_dg_outstanding: byte;
  rcv_any_outstanding: byte;
 end;
{ session buffer }
 PSession_Buffer = ^TSession_Buffer;
 TSession_Buffer = packed record
  lsn:         byte;
  state:        byte;
  local_name:     TNBName;
  remote_name:     TNBName;
  rcvs_outstanding:  byte;
  sends_outstanding:  byte;
 end;
{
 Structure returned to the NCB command NCBENUM.
 On a system containing lana's 0, 2 and 3, a structure with
 length =3, lana[0]=0, lana[1]=2 and lana[2]=3 will be returned.
}
 PLana_Enum = ^TLana_Enum;
 TLANA_ENUM = packed record
  length: byte;    { Number of valid entries in lana[] }
  lana:  array[0..(MAXLANAS - 1)] of byte;
 end;
{
 Structure returned to the NCB command NCBFINDNAME is FIND_NAME_HEAd
ER followed
 by an array of FIND_NAME_BUFFER structures.
}
 PFind_Name_Header = ^TFind_Name_Header;
 TFind_Name_Header = packed record
  node_count:  word;
  reserved:   byte;
  unique_group: byte;
 end;
 PFind_Name_Buffer = ^TFind_Name_Buffer;
 TFind_Name_Buffer = packed record
  length:     byte;
  access_control: byte;
  frame_control: byte;
  destination_addr:TMacAddress;
  source_addr:  TMacAddress;
  routing_info:  array[0..17] of byte;
 end;
{
 Structure provided with NCBACTION. The purpose of NCBACTION is to p
rovide
 transport specific extensions to netbios.
}
 PAction_Header = ^TAction_Header;
 TAction_Header = packed record
  transport_id: LongInt;
  action_code: Word;
  reserved:  Word;
 end;
{$IFDEF WIN32}
 function Netbios(P: PNCB): Char; stdcall;
{$ENDIF}
{ Exposed functions }
function NetbiosCmd(var NCB: TNCB): Word;
implementation
{$IFDEF WIN32}
function Netbios; external 'netapi32.dll' name 'Netbios';
{$ENDIF}
{---------------------------------}
{ execute a Windows Netbios Call }
{---------------------------------}
function NetbiosCmd(var NCB: TNCB): Word;
begin
{$IFNDEF WIN32}
 asm
  push bp         { save bp }
  push ss         { save ss }
  push ds         { save ds }
  les bx, NCB       { get segment/offset address of NCB }
  call NetBiosCall;    { 16 bit Windows Netbios call }
  xor ah,ah
  mov @Result, ax     { store return code }
  pop ds         { restore ds }
  pop ss         { restore ss }
  pop bp         { restore bp }
 end;
{$ELSE}
 Result := Word(Netbios(PNCB(@NCB))); { 32 bit Windows Netbios call }
{$ENDIF}
end;

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